2002 MAZDA 6 coolant

AUTOMATIC TRANSAXLE
K2–63
K2
Determination of Torque Converter Clutch (TCC) Cancellation
The TCC control is canceled when any of the following condition are met:
•Engine coolant temperature is low.
•ATF temperature is low.
•Brake switch is on (when depressing the brake pedal).
•Accelerator depressing speed and accelerator opening angle are above the set value.
•Engine speed signal is below the set value.
•Failure is in the TCC control system detected by diagnosis function.
End Of Sie
SLOPE MODE CONTROL DESCRIPTIONA6E571418901209•Climbing and the appropriate gear is determined by engine load and the vehicle acceleration.
Slope Mode Control Block Diagram
.
When climbing hill
•When the hill is steeper than a certain grade, unnecessary up shift is prevented by holding an appropriate gear.
End Of Sie
2C 2B
2J
2M1AA 1S 1T 1Z1W 1B 1F
2W
1M 1V2T
2X
PN
RD
M
9
8
7
543
1
2
10
18
17
15
16
14
13
11
12
6
A6E5714W022
1Starter
2 TR switch
3 Down switch
4 Up switch
5 M range switch
6 TFT sensor
7PCM
8CAN
9 Input10 Throttle position signal
Engine speed signal
Engine torque signal
11 TCM
12 Throttle opening angle
13 Shift diagram
14 Vehicle speed
15 VSS
16 Shift solenoid A
17 Shift solenoid B
18 Shift solenoid C

K2–66
AUTOMATIC TRANSAXLE
P0711Transaxle fluid temperature (TFT)
sensor malfunction (stuck)•TFT sensor signal stays
outside normal temperature
range for 10 minute or more—Available
P0712Transaxle fluid temperature (TFT)
sensor circuit malfunction (short
circuit)•Signals form TFT sensor are
155 °C {311 °F} or greater
for 10 min.
•Inhibits feedback control
•Engine coolant temperature
signal are used for shifting.Available
P0713Transaxle fluid temperature (TFT)
sensor circuit malfunction (open
circuit)•Vehicle speed is 20 km/h
{12.4 mph} or greater, and
signals from TFT sensor are
–30 °C {–22 °F} or less for
150 seconds or moreAvailable
P0715Input/turbine speed sensor circuit
malfunction•Input/turbine speed sensor
is 600 rpm or less while
engine speed is 1500 rpm or
greater and vehicle speed is
40 km/h {24.8 mph} or
greater in D ranges.•Inhibits shift control Available
P0720Vehicle speedometer sensor
circuit malfunction•Parking gear rotation
detected by VSS is 150 rpm
or less while intermediate
sensor 1400 rpm or greater
in D range for 2 second or
more.•Inhibits SLOPE mode,
feedback control, torque
reduction controlAvailable
P0740Torque converter clutch (TCC)
system•RPM difference between
crankshaft (engine speed
signal) and reverse clutch
drum (input/turbine speed
sensor signal) exceeds the
pre-programmed value—Available
P0743Torque converter clutch (TCC)
solenoid valve malfunction (open/
short)•Open or short in torque
converter clutch solenoid
valve circuit (Voltage
different from on/off signal
relayed by CPU in TCM is
detected while TCM is
monitoring solenoid output
voltage.)•Stops driving of TCC
solenoid valve (OFF)Inhibition
P0748Pressure control solenoid
malfunction (open/short)•Open or short in pressure
control solenoid circuit
(Voltage different from on/off
signal relayed by CPU in
TCM is detected while TCM
is monitoring solenoid
output voltage.)•Stops driving of pressure
control solenoid, 2-4 brake
solenoid valve, and high
clutch solenoid valve (OFF)
•Inhibit feedback control.Available
P0751Shift solenoid A malfunction
(stuck off)•Difference between actual
gear ratio and gear ratio set
in TCM is large—Available
P0752Shift solenoid A malfunction
(stuck on)•Difference between actual
gear ratio and gear ratio set
in TCM is large—Available
P0753Shift solenoid A malfunction
(open/short)•Open or short in shift
solenoid A circuit (Voltage
different from on/off signal
relayed by CPU in TCM is
detected while TCM is
monitoring solenoid output
voltage.)•Stops driving all ON/OFF
type solenoids (OFF) and
TCC solenoid valve (OFF)Inhibition
P0756Shift solenoid B malfunction
(stuck off)•Difference between actual
gear ratio and gear ratio set
in TCM is large—Available
P0757Shift solenoid B malfunction
(stuck on)•Difference between actual
gear ratio and gear ratio set
in TCM is large—Available DTC
No.On-board diagnostic function Detection condition Fail-safe TCC

K2–72
AUTOMATIC TRANSAXLE
MECHANICAL SYSTEM TESTA6E571401030209Mechanical System Test Preparation
1. Apply the parking brake and use wheel chocks at the front and rear of the wheels.
2. Inspect the engine coolant. (See Section E.)
3. Inspect the engine oil. (See D–8 ENGINE OIL INSPECTION.)
4. Inspect the ATF levels. (See K2–79 Automatic Transaxle Fluid (ATF) Level Inspection.)
5. Inspect the idle speed and ignition timing in P position. (See F1–22 IDLE SPEED INSPECTION (4WD).)
Line Pressure Test
Note
•Line pressure cannot be measured on the JA5AX-EL automatic transaxle. Measure the low clutch
pressure in place of D and M range line pressures. Measure the reverse clutch pressure in place of R
position line pressure.
1. Engine idling.
(1) Perform mechanical system test preparation. (See K2–72 Mechanical System Test Preparation.)
Warning
•Removing the plug when the ATF is hot can be dangerous. Hot ATF can come out of the opening
and badly burn you. Before removing the square-head plug, allow the ATF to cool.
(2) Remove the plug and O-ring shown in the
figure.
AUTOMATIC TRANSAXLE
LINE PRESSURE INSPECTION PORT
D,M RANGES
FRONT
A6E5714W101
LINE PRESSURE INSPECTION PORT
R POSITION
FRONT
A6E5714W102

AUTOMATIC TRANSAXLE
K2–75
K2
Time Lag Test
1. Perform mechanical system test preparation. (See K2–72 Mechanical System Test Preparation.)
2. Start the engine.
3. Warm up the engine until the ATF temperature reaches 60—70°C {140—158°F}. Shift the selector lever from N
position to D range.
4. Use a stopwatch to measure the time it takes from shifting until engagement is felt. Take three measurements
for each test and average the results using the following formula.
Formula
Average time lag = (Time 1 + Time 2 + Time 3) / 3
5. Perform the test for the following shifts in the same manner.
•N position → P position
Time lag
N → D range ... approx. 0.5—1.0 second
N → R position ... approx. 0.6— 1.0 second
Evaluation of time lag test
End Of SieROAD TESTA6E571401030210Road Test Preparation
1. Inspect the engine coolant. (See Section E.)
2. Inspect the engine oil. (See D–8 ENGINE OIL INSPECTION.)
3. Inspect the ATF levels. (See K2–78 AUTOMATIC TRANSAXLE FLUID (ATF) INSPECTION.)
4. Inspect the idle speed and ignition timing in P position. (See F1–22 IDLE SPEED INSPECTION (4WD).)
5. Bring up the engine and transaxle to normal operating temperature.
Shift Diagram
D range (normal mode)
Condition Possible Cause
Above specificationN → D shiftInsufficient line pressure in all forward ranges
Low clutch slippage
Low one-way clutch slippage
Reduction one-way clutch slippage
N → R shiftInsufficient line pressure in R position
Low and reverse brake slippage
Reverse clutch slippage
Reduction brake slippage
0/8 1/8
2/8
3/8
4/8
5/8
6/8
7/8
8/8
TCC OPERATION AVAILABLE
VEHICLE SPEED km/h {mph}
THROTTLE OPENING
SHIFT UP
4GR
TCC
OFF
SHIFT DOWN
0
{0}20
{12}40
{25}60
{37}80
{50}100
{63}120
{75}140
{87}160
{99}180
{112}220
{137} 200
{124} 112 23
2
2 232
34
4534
45
5GR TCC ON
4GR TCC ON
5GR TCC OFF
A6E5714W104

K2–108
AUTOMATIC TRANSAXLE
OIL COOLER REMOVAL/INSTALLATIONA6E5714199002031. Disconnect the negative battery cable.
2. Drain the ATF into a container. (See K2–80 AUTOMATIC TRANSAXLE FLUID (ATF) REPLACEMENT.)
3. Remove the radiator. (See Section E.)
4. Remove in the order indicated in the table.
5. Install in the reverse order of removal.
6. Add ATF to the specified level. (See K2–80 AUTOMATIC TRANSAXLE FLUID (ATF) REPLACEMENT.)
7. Connect the negative battery cable.
8. Inspect for oil leakage from the oil pipes and oil hoses.
9. Inspect for coolant from the hoses.
10. Inspect the ATF level and condition. (See K2–78 AUTOMATIC TRANSAXLE FLUID (ATF) INSPECTION.)
11. Carry out the line pressure test. (See K2–72 MECHANICAL SYSTEM TEST.)
12. Carry out the road test. (See K2–75 ROAD TEST.)
.
Radiator (In Tank Oil Cooler) Installation Note
1. The automatic transaxle oil cooler flushing must be performed whenever a transaxle is removed for service
because the existing fluid may be contaminated, and to prevent contamination of new fluid.
Note
• The flushing must be performed after installation of the overhauled or replacing transaxle.
2. Follow the instructions in the manufacturer’s publication for flushing operation.
R
R
1
2
1
3
4
2
R2
R2
R
7.8—10.8 N·m
{80—110 kgf·cm, 69.5—95.4 in·lbf} 7.8—10.8 N·m
{80—110 kgf·cm, 69.5—95.4 in·lbf}24—35
{2.5—3.5, 18—26}
2
5
AB
A
B
N·m {kgf·m, ft·lbf}
R
A6E5714W146
1Oil hose
(See K2–109 Oil Pipe, Hose Clamp, Oil Hose
Installation Note)
2 Hose clamp
(See K2–109 Oil Pipe, Hose Clamp, Oil Hose
Installation Note)
3Oil cooler4 Oil pipe
(See K2–109 Oil Pipe, Hose Clamp, Oil Hose
Installation Note)
5 Radiator (in tank oil cooler)
(See K2–108 Radiator (In Tank Oil Cooler)
Installation Note)

K2–112
AUTOMATIC TRANSAXLE
4. Squeeze the header tabs down in order as shown
against the lip of radiator outer tank base with
locking-type pliers while rotating the pliers toward
the tank.
5. Verify the height of the header tabs is same as
the height before removal.
6. Inspect for leakage from radiator. (See E–8
ENGINE COOLANT LEAKAGE INSPECTION.)
End Of SieDRIVE PLATE REMOVAL/INSTALLATIONA6E5714190202011. Remove the transaxle.(See K2–99 AUTOMATIC TRANSAXLE AND TRANSFER REMOVAL/INSTALLATION.)
2. Remove in the order indicated in the figure.
3. Install in the reverse order of removal.
.
8
7
5
43
6
1
2
LOCKING TYPE
PLIERSRADIATOR LOWER
TANK
A6E5614W076
RADIATOR
LOWER
TANK
HEADER TAB
HEIGHT
O-RING
A6E5614W073
1 Drive plate mounting bolts
(See K2–113 Drive Plate Mounting Bolts Removal
Note.)
2 Adapter
3 Drive plate
(See K2–113 Drive Plate Installation Note.)
N·m {kgf·m, ft·lbf} 108—116
{11.0—11.8, 80—85}
SST
3
1
2
A6E5614W078

TROUBLESHOOTING
K2–199
K2
End Of SieNO.23 TRANSAXLE OVERHEATSA6E578001030226
Diagnostic procedure
End Of SieNO.24 ENGINE STALLS WHEN SHIFTED TO D RANGE, OR IN R POSITIONA6E578001030227
2•Do following symptoms concurrently occur?
—Engine flares up or slips during
acceleration
—Engine flares up or slips when shiftingYes Go to symptom troubleshooting No.14 “Engine flares up or
slips when upshifting or downshifting” or No.15 “Engine
flares up or slips when accelerating vehicle”.
No Go to next step.
3•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM. STEP INSPECTION ACTION
23 Transaxle Overheat
DESCRIPTION•Burnt smell emitted from transaxle.
•Smoke emitted from transaxle.
POSSIBLE
CAUSE•Malfunction is restricted to hindrance of coolant at oil cooler. In addition, overheating of transaxle may
be caused by a malfunction of TFT sensor.
—Line pressure low
•ATF level low
•Incorrect throttle position signal
•Misadjustment of throttle cable
—Oil cooler malfunction (Foreign material mixed in with ATF)
—TFT sensor malfunction
—Excessive amount of ATF
Note
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic
and Automatic Transaxle Basic Inspection are conducted.
STEP INSPECTION ACTION
1•Is line pressure okay?
(See K2–72 Line Pressure Test.)Yes Go to next step.
No Repair or replace any defective parts according to
inspection results.
2•Is stall speed okay?
(See K2–74 Stall Speed Test.)Yes Go to next step.
No Repair or replace any defective parts according to
inspection results.
3•Inspect TFT sensor and related harness:
vibration, intermittent open/short circuit
•Is it okay?Yes Go to next step.
No Repair or replace part if necessary.
4•Inspect pressure control solenoid circuit.
•Is it okay?Yes Go to next step.
No•Inspect for pressure control solenoid mechanical stuck.
(See K2–88 SOLENOID VALVE INSPECTION.)
5•Inspect for bend, damage, corrosion or kinks
of oil cooler pipes.
•Are oil cooler pipes okay?Yes•Overhaul control valve body and repair or replace any
defective parts.
(See ATX Workshop Manual.)
•If problem remains, replace or overhaul transaxle and
repair or replace any defective parts.
(See ATX Workshop Manual.)
No Replace any defective parts.
6•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM.
24 Engine stalls when shifted to D range, or in R position
DESCRIPTION•Engine stalls when shifting from N or P position to D range or R position at idle.
POSSIBLE
CAUSE•Malfunction is on the engine control side (e.g. IAC system). Otherwise, malfunction is in input/turbine
speed sensor (engine sometimes starts) or TCC piston circuit (engine always stalls).
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic and
Automatic Transaxle Basic Inspection are conducted.

GENERAL PROCEDURES
M–21
M
PRECAUTION (FRONT AND REAR AXLE)A6E631001018201Wheel and Tire Removal/Installation
1. The removal and installation procedures for the wheels and tires are not mentioned in this section. When a
wheel is removed, tighten it to 88—118 N·m {9.0—12.0 kgf·m, 65.0—87.0 ft·lbf}
Brake Line Disconnection/Connection
Caution
•Brake fluid will damage painted surfaces. If brake fluid gets on a painted surface, wipe it off
immediately.
1. Tighten the brake pipe flare nut using the SST (49 0259 770B). Be sure to modify the brake pipe flare nut
tightening torque to allow for use of a torque wrench-SST combination.
2. If any brake line has been disconnected any time during the procedure, add brake fluid, bleed the brakes, and
inspect for leakage after the procedure has been completed.
Suspension Arm Removal/Installation
1. Tighten any part of the suspension that uses rubber bushings only after vehicle has been lowered and
unloaded.
Note
•Unloaded: Fuel tank is full. Engine coolant and engine oil are at specified level. Spare tire, jack, and tools
are in designated position.
Connector Disconnection
1. Disconnect the negative (-) battery cable before disconnecting connectors.
Electronic Control 4WD System Parts
1. After servicing the electronic control 4WD system parts, verify that no DTC has been stored. Clear any DTCs
remaining in the memory.
End Of Sie
GENERAL PROCEDURES